JpGU-AGU Joint Meeting 2020

講演情報

[E] 口頭発表

セッション記号 P (宇宙惑星科学) » P-PS 惑星科学

[P-PS06] Science of Venus: Venus Express, Akatsuki, and beyond

コンビーナ:佐藤 毅彦(宇宙航空研究開発機構・宇宙科学研究本部)、Kevin McGouldrick(University of Colorado Boulder)、佐川 英夫(京都産業大学)、Thomas Widemann(Observatoire De Paris)

[PPS06-15] Variations of Venus night clouds as observed by Akatsuki/IR2

*佐藤 毅彦1,2Choon Wei Vun2堀之内 武3佐藤 隆雄4 (1.宇宙航空研究開発機構・宇宙科学研究本部、2.総合研究大学院大学・物理科学研究系・宇宙科学専攻、3.北海道大学・地球環境科学研究院、4.北海道情報大学・経営情報学部・システム情報学科)

キーワード:金星 雲、あかつき IR2、エアロソル 組成

The near-IR Venus night-side data were analyzed to study the spatio-temporal variations of clouds. The data were acquired by Akatsuki/IR2 during the Orbits 24 (Aug. 16-20, 2016) and 25 (Aug. 26-30, 2016) at 3 wavelengths (1.735, 2.26, and 2.32 um). From a 2.26-um image, contamination from the day-side is cancelled by subtracting the near-simultaneous 2.32-um image (scaled by an appropriate factor, ~1.10). Then, this "cleaned night (CLN)" is subtracted from the original 2.26-um image, leaving only "net contamination (NTC)" from the day-side. To restore a 1.735-um image to 1.735CLN, the 2.26NTC is scaled by another factor (~2.7), and subtracted from the 1.735-um image.

The radiance of night-side emission in 2.26CLN and 1.735CLN can be converted to a scaling factor to describe the total aerosol content in the clouds. We use the cloud model (vertical profiles and mixing ratios of multi-modal particles) from Haus et al. (2015) and use this "cloud multiplication" factor, MFcloud, to increase or decrease the opacity. The differences of two MFC maps actually indicate deviations of aerosol composition from that in the model. We have found interesting features in the (2.26MFC – 1.735MFC) maps: one example is the mid-latitude bright streaks in Orbit 25. The southern streak is less opaque in 2.26 um than in 1.735 um, indicative of concentration of smaller aerosol particles. This is consistent with the numerical simulation by Kashimura et al. (2019) which attributed these streaks as narrow and strong downwelling regions.